5 Western Governors Agree on Plan to Limit Greenhouse Gases

WASHINGTON – Governors from five Western states agreed Monday to work together to reduce greenhouse gases, saying their region has suffered some of the worst of global warming with recent droughts and bad fire seasons.

The governors of Arizona, California, New Mexico, Oregon and Washington state agreed that they would develop a regional target to lower greenhouse gases and create a program aimed at helping businesses reach the still-undecided goals.

"In the absence of meaningful federal action, it is up to the states to take action to address climate change and reduce greenhouse gas emissions in this country," said Arizona Gov. Janet Napolitano, a Democrat. "Western states are being particularly hard-hit by the effects of climate change."

California Gov. Arnold Schwarzenegger, a Republican, said a so-called cap-and-trade program, which lets companies that can't meet their emission reduction targets buy credits from those that reduce carbon dioxide, would provide "a powerful framework for developing a national cap-and-trade program. ... This agreement shows the power of states to lead our nation addressing climate change."

Last year, Schwarzenegger signed California legislation imposing a first-in-the-nation emissions cap on utilities, refineries and manufacturing plants, with a goal of cutting greenhouse gases to 1990 levels by 2020. And Schwarzenegger and British Prime Minister Tony Blair announced plans to work toward a possible joint emissions-trading market.

New Mexico and Arizona last year agreed to work to measure and report greenhouse gas emissions. A similar joint effort on climate change was agreed upon in 2003 by California, Oregon and Washington.

Carbon dioxide from burning coal, oil and other fossil fuels is the biggest of the greenhouse gases, so called because they create a heat-trapping blanket when released into the atmosphere. Others are methane, nitrous oxide and synthetic gases. Scientists say the atmosphere holds more carbon dioxide now than it has for hundreds of thousands of years.